Electrons Bonding and Structure
- Created by: Sophie kendall
- Created on: 05-05-13 17:06
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- Electrons Bonding and Structure
- bonding
- ionic bonding
- between a metal and non-metal
- metal is positive
- non-metal is negative
- therefore are attracted to each other
- metal is positive
- therefore are attracted to each other
- you will need to be able to draw dot and cross diagrams- but you try drawing them on a mind map!
- they will form giant ionic lattices
- each ion is surrounded by oppositely chargedions
- eg, salt
- Ions
- Must know: NO -3, CO3 -2, SO4 -2 NH4 +1
- you can predict the ions that will form based on the position in the periodic table
- groups 1-3 will loose electrons andform a positive ions
- groups 5-7 will gain electrons and will form negative ions
- between a metal and non-metal
- covalent bonding
- Between two non-metals
- two electrons will be shared between two atoms
- Some atoms will share more than 1 electron
- Known as a multiple bond
- A lone pair is a pair of outer shell electrons not involved in bonding
- a dative covalent bond is when one atom supplies both electrons
- intermolecular forces
- electronegativiity
- the measure of attraction of the bonded atom to the electrons in a covalent bons
- this causes electrons to be further one way then the other and cause the molecule to be polar
- this causes dipoles
- the measure of attraction of the bonded atom to the electrons in a covalent bons
- this causes dipoles
- van der Waals'
- electrons move within a bond
- this means at any point a instantaneous dipole could be created
- this then induces a dipoles in the neighbouring molecules
- these are then attracted to each other
- this then induces a dipoles in the neighbouring molecules
- this means at any point a instantaneous dipole could be created
- relatively weak
- eg, gecko's foot
- electrons move within a bond
- Hydrogen Bonding
- Strongest intermolecula force
- Forms between a hydrogen and a O or a N
- Holds DNA double helix together
- electronegativiity
- noble gasses
- they have a full outer shell
- makes up 1% of the air
- argon is the most abundant
- electronegativiity
- this causes electrons to be further one way then the other and cause the molecule to be polar
- this causes dipoles
- this causes dipoles
- this causes electrons to be further one way then the other and cause the molecule to be polar
- ionic bonding
- structure
- Shapes of molecules and ions
- all electrons are negative and will repel each other as far away as possible
- 3 covalent bonds= trigonal planar 120° bond angel
- 4 covalent bonds = tetrahedral 109.5° bond angel
- 6 covalent bonds = octahedral 90° bond angel
- Lone pairs are more negaive and therefore push the bonds away and reduce bond angels
- Metallic
- positive ions are fixed in place
- these hold the positive ions together
- outer shell electrons form a sea of delocalised electrons
- these hold the positive ions together
- they are able to move within the structure
- you can not tell which ion the electron originated from
- overall the charges MUST ballance
- positive ions are fixed in place
- positive ions are fixed in place
- they have high melting and boiling points
- this is because whilst the electrons can move the ions are held in place and take a lot of energy to disturb
- they conduct electricity
- because the electrons are free to carry a charge
- they have a degree of give due to electrons being able to move, this gives them properties such as malleability
- alloys-they have different sized ions so the layers of the metal cannot sld
- positive ions are fixed in place
- Ionic compounds
- form giant ionic lattices
- each ion is surrounded by oppositely charged ions
- this forms a "grid"
- high melting oint
- because a large amount of enery is needed to break the strong electrostatic attraction between ions
- the can only conduct electricity when they are a liquid
- because the ions are free to move and carry a charge
- wil only dissolve in polar solvents
- because the polar molecules will surround each ion and keep them apart
- each ion is surrounded by oppositely charged ions
- form giant ionic lattices
- Covalent compounds
- a simple molecular lattice
- individual molecules held together by intermolecular forces
- low melting and boiling points
- intermolecular forces are weak
- A giant covalent lattice
- a 3D structure held together by covalent bonds
- they are insoluble they don't conduct electricity and have a high melting point
- except graphite
- sheets of covalently bonded atoms held together in layers by van der waals' forces
- it can conduct due to delocalised electrons between layers
- soft due to sheets moving
- except graphite
- they are insoluble they don't conduct electricity and have a high melting point
- Eg, diamond
- a 3D structure held together by covalent bonds
- a simple molecular lattice
- Shapes of molecules and ions
- Electrons
- Shells and orbitals
- Ionisation
- a mixture of positive ions and negative electrons is called plasma
- First ionisation energy is the energy to remove one electron from each atom in one mole of GASEOUS atoms
- Ionisation energy is effected by 3 things
- 1.Atomic radius
- 2. Nuclear charge
- 3. Electron shielding
- Successive ionisation energy- energy for electrons in turn
- Ionisation energy is effected by 3 things
- Successive ionisation energy- energy for electrons in turn
- A large jump in ionisation energies means a new shell
- Orbitals
- Can hold 2 electrons
- S orbital
- spherical shape
- p Orbital
- Dumb bell shape that come in threes
- D orbital
- Come in fives
- F Orbital
- Come in sevens
- the two electrons have opposite spins
- a shell is a group of orbitals with the same QUANTUM number
- Orbitals
- Can hold 2 electrons
- S orbital
- spherical shape
- p Orbital
- Dumb bell shape that come in threes
- D orbital
- Come in fives
- F Orbital
- Come in sevens
- the two electrons have opposite spins
- Each shells can hold 2n² electrons
- Orbitals
- Ionisation
- Sub Shells
- a group of the same type of orbital within a shell
- when working out configuration:
- Electrons are added one at a time
- The lowest energy level is filled first
- fill each energy level completely before starting the next
- The Periodic table
- Electron shells can overlap
- the periodic table is split into bocks
- you can then count along to work out the orbital configuration
- Shells and orbitals
- bonding
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